Entropy engineering of La-based perovskite for simultaneous photocatalytic CO2 reduction and biomass oxidation

Herein, the high-entropy perovskite, i.e. La(FeCoNiCrMn)O3, was prepared for simultaneous CO2 reduction and biomass upgrading. Based on the synergistic effect between the elements in the high-entropy material, an excellent CO evolution rate of 131.8 μmol g−1 h−1 and a xylonic acid yield of 63.9% wer...

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Veröffentlicht in:	Chemical communications (Cambridge, England) England), 2023-12, Vol.59 (99), p.14673-14676
Hauptverfasser:	Wang, Mengchen, Li, Liming, Li, Yong, Shi, Xuxia, Ren, Hangxing, Sun, Yuetao, Liu, Kangning, Song, Wei, Li, Huamin, Wang, Haibin, Han, Mei, Wang, Xi, Momo, Christopher Dorma, Chen, Songhua, Liu, Lihua, Liang, Hongyan
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Sprache:	eng
Schlagworte:	Biomass Carbon dioxide Entropy Oxidation Perovskites Reduction Synergistic effect
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container_title	Chemical communications (Cambridge, England)
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creator	Wang, Mengchen Li, Liming Li, Yong Shi, Xuxia Ren, Hangxing Sun, Yuetao Liu, Kangning Song, Wei Li, Huamin Wang, Haibin Han, Mei Wang, Xi Momo, Christopher Dorma Chen, Songhua Liu, Lihua Liang, Hongyan
description	Herein, the high-entropy perovskite, i.e. La(FeCoNiCrMn)O3, was prepared for simultaneous CO2 reduction and biomass upgrading. Based on the synergistic effect between the elements in the high-entropy material, an excellent CO evolution rate of 131.8 μmol g−1 h−1 and a xylonic acid yield of 63.9% were gained.
doi_str_mv	10.1039/d3cc04393b
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subjects	Biomass Carbon dioxide Entropy Oxidation Perovskites Reduction Synergistic effect
title	Entropy engineering of La-based perovskite for simultaneous photocatalytic CO2 reduction and biomass oxidation
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